Description
Subsea pipeline engineering is a specialized field of engineering that deals with the design, construction, installation, and maintenance of pipelines that are located on or beneath the seabed. Subsea pipelines are used to transport oil, gas, and other fluids from offshore production facilities to onshore processing plants, or to connect offshore wells to other subsea infrastructure.
Subsea pipeline engineering involves a range of disciplines, including structural engineering, mechanical engineering, materials engineering, geotechnical engineering, and pipeline corrosion engineering. The design and installation of subsea pipelines must take into account a range of factors, including the seabed topography, water depth, environmental conditions, and the properties of the fluid being transported.
This course covers Different Phases in a Submarine Pipeline Project, DNV Standard (Limit State Design Methodology), Route Selection Study Flow Assurance Study Material & Grade Selection , Pipe Manufacturing, Pipe Anti-corrosion Coating & CP Design, Wall Thickness Calculation, Local Buckling Criteria – Combined Loading, Fracture Criteria, On-bottom Stability of Pipeline, Pipeline Installation Studies, Shore Approach Design, Free Span Analysis, Riser Design – Rigid Pipeline and more
Course Outlines
Relevant Codes & Standards
Different Phases in a Submarine Pipeline Project
DNV Standard Limit State Design Methodology
Limit State Criteria
Subsea Pipeline Stress Analysis
Pipeline Stress Components
Hoop Stress
Longitudinal Stress
Equivalent Stress
Hydrostatic Collapse
Stress-Strain Relationship For Pipelines
Horizontal Pipeline Stability
Vertical Pipeline Stability
Pipeline Free Spans
Vortex Induced Vibration (VIV)
Upheaval And Lateral Buckling
Driving Force For Upheaval Buckling
Effective Expansion Force in DNV Codes
Upheaval Buckling Failure Modes
Strategies For Analysis Of Upheaval Buckling Movements
Upheaval Buckling Preventing Measures
Upheaval Buckling Corrective Actions
Lateral Buckling
Lateral Buckling
Management of Lateral Buckling
Uplift Resistance Cohesion And Non Cohesionless Soil
Uplift Resistance Non Cohesionless Soil
Uplift Resistance Cohesionless Soil
Brief Look At Upheaval Buckling Design According to DET Norske Veritas
Design Process For Buried Pipelines Based On DNV-RP-F110
Buried Subsea Pipeline
Purpose Of Buring Pipelines
Installation Of Subsea Buried Pipelines
Jetting
Mechanical Cutting
Buried Subsea Pipelines Backfill (Covers)
Cohesive Soil
Applicable Software Programs in Pipeline Design
Assessment
Participant underpinning knowledge of subsea pipeline engineering will be accessed with short answer multiple-choice questionnaire and case studies at the conclusion of the course.
Outcome
Participants will gain an in debt understanding of Subsea Pipeline Engineering & Tie In Components. They will also be able to function with minimum supervision as a Subsea SURFs Engineer or Subsea Pipeline Engineer for IOCs, subsea pipeline company contractor, vendor or installation company.
Professional Certificate
Issued directly by Chess Subsea Engineering Europe.
Participant may be presented for Offshore Petroleum Training Organization (OPITO) Certification.
How to Register
Click here to download registeration booklet on msword and email completed booklet to info@chesssubseaengineering.org directly.